O3/H2O2深度处理印染废水二级出水

采用O3/H2O2高级氧化工艺深度处理印染废水二级出水,考察了不同反应条件对O3/H2O2工艺的影响,并且对污水二级出水有机物(EfOM)的性质和去除行为进行了表征分析。结果表明,在pH=9,臭氧进气流量0.2 L/min,臭氧浓度116 mg/L,反应时间100 min,H2O2投加量9.79 mmol/L时,COD和色度去除率分别为82.2%、96.9%,B/C(BOD5/COD)由初始的0.10提升到0.32。此外,三维荧光光谱(3DEEM)、相对分子质量分布(MWD)以及亲疏水性分布分析表明,处理后EfOM的荧光特性发生变化,低分子量物质大量增加,亲疏水性分布也有所改变。     

Decolorization of textile wastewater by photo-fenton oxidation technology

This paper describes the use of photo-fenton process for color removal from textile wastewater stream. The wastewater sample to be treated was simulated by using colorless polyvinyl alcohol (PVA) and reactive dyestuff of R94H. As a result, the hydroxyl radical (HO*) oxidation can effectively remove color, but the chemical oxygen demand (COD) was removed in a slight degree. The color removal is markedly related with the amount of HO* formed. The optimum pH for both the OH* formation and color removal occurs at pH 3-5. Up to 96% of color can be removed within 30 min under the studied conditions. Due to the photoreduction of ferric ion into ferrous ion, color resurgence was observed after 30 min. The ferrous dosage and UV power affect the color removal in a positive way, however, the marginal benefit is less significant in the higher range of both. PVA as the major background COD of a textile wastewater stream inhibits the color removal insignificantly as its concentration increases.     

Treatment of the textile wastewater by combined electrocoagulation

Electrocoagulation (EC) due to some advantages over chemical coagulation is becoming a popular process to be used for wastewater treatment. The aim of this paper is to investigate the effect of initial addition of a chemical coagulant such as polyaluminum chloride (PAC) or alum on the COD removal efficiency of EC treatment of textile wastewaters. The two salts exhibited the same performance in chemical coagulation, but in the combined electrocoagulation (CEC), PAC was found to significantly enhance the COD removal rate and efficiency, depending on the amount of the total aluminum supplied, by initial addition and electrochemical generation. A comparative operating cost analysis was also given and it was found that with the same operating cost per mass of COD removed, CEC performance was 80%, in contrast to 23% with EC, in 5 min of operation.     

Decolorization of dyes and textile wastewater by potassium permanganate

Decolorization of 10 types of dye solutions by potassium permanganate was studied. Effects of reaction conditions on the decolorization efficiency were examined in batch experiments. The pH value had a significant effect on the decolorization efficiency. When pH value <1.5, the decolorization efficiency was very high. When pH value >4.0, the dye solutions were almost not decolorized. Concentration of potassium permanganate and temperature also showed significant effects on the decolorization efficiency. The decolorization rate of dye solutions by potassium permanganate was rapid, and most of dye solutions can be decolorized effectively. The results of total organic carbon indicated that dye solutions were degraded incompletely by potassium permanganate. The results of treatment of textile wastewater by potassium permanganate indicated that the oxidation with potassium permanganate might be used as a pre-treatment process before biological treatment.     

厌氧滤池处理纺织印染废水的中试研究

对厌氧滤池反应器处理难降解印染废水进行中试研究。结果表明,厌氧滤池反应器水力停留时间(HRT)在8.1～14.6 h之间,进水COD浓度波动较大(500～1 000 mg/L)时,对COD平均去除率为20%。印染废水的BOD5/COD由0.23提高到0.35,废水可生化性明显改善。印染废水中硫酸根浓度略有下降,去除浓度为70 mg/L左右。厌氧滤池进出水颜色明显变化,由紫红色变为蓝黑色,紫外可见光谱分析表明废水中的有机物结构发生变化。     

Pre-oxidation and coagulation of textile wastewater by the Fenton process

This paper evaluates the Fenton process, involving oxidation and coagulation, for the removal of color and chemical oxygen demand (COD) from synthetic textile wastewater containing polyvinyl alcohol and a reactive dyestuff, R94H. The experimental variables studied include dosages of iron salts and hydrogen peroxide, oxidation time, mixing speed and organic content. The results show that color was removed mainly by Fenton oxidation. The color removal reached a maximum of 90% at a reaction time of 5 min under low dosages of H2O2 and Fe2+. In contrast, the COD was removed primarily by Fenton coagulation, rather than by Fenton oxidation. The ratio of removal efficiency between Fenton process and ferric coagulation was 5.6 for color removal and 1.2 for COD removal. It is concluded that Fenton process for the treatment of textile wastewater favors the removal of color rather than COD.     

臭氧预氧化处理葡萄酒废水

葡萄酒废水的季节性波动常造成生化处理系统不稳定,使传统的生化处理工艺难以满足新的污水排放标准的要求。研究了臭氧预处理工艺对葡萄酒废水的处理效果及主要控制参数,结果表明,单独的臭氧预氧化对COD几乎无去除效果,但对色度的去除可达到90%;采用O3/H2O2组合工艺可使COD的去除率提高4倍。经臭氧预处理的出水再采用SBR进行好氧处理时,出水COD能降至80 mg/L以下,COD的降解速度及程度都高于未经臭氧处理的稀释原水。高效液相色谱(HPLC)分析显示,经臭氧处理后,除麦芽糖成分被完全去除外,其他各种成分的数量变化不大;GC/MS对废水中多酚类有机物的分析显示,臭氧预处理可将大量难降解的多酚类有机物分解,从而有助于后续生化处理的出水达到更高的污水排放标准。     

印染废水污染物在曝气生物滤池中的沿程去除规律

主要研究了曝气生物滤池（BAF）对印染废水中污染物的沿程去除规律。研究表明：BAF对印染废水污染物的去除沿高程有着不同的变化规律：在BAF总高度为300 cm,填料层高度为200 cm,气水比3∶1,停留时间11.8 h,的情况下, BAF对COD的去除主要集中在<160 cm的填料层部分,在总的去除率为63.1%时,此区域去除率可达56.60%;对NH3N的去除主要集中在填料层100～160 cm段,在总NH₃-N去除率为85.09%时,此区域NH₃-N去除率达38.28%。BAF对浊度的去除主要集中在填料层小于100 cm的部分,在总去除率为94.04%,区域去除率达到61.90%。印染废水经过BAF的前100 cm填料层后,pH值由10降至7.6后基本维持不变。     

臭氧/ 生物活性炭深度处理循环养殖废水

随着工厂化循环水养殖的不断发展,高浓度循环养殖废水对环境污染日益严重.为实现环境友好和资源节约,采用臭氧/生物活性炭对循环养殖废水进行深度处理中试研究.实验结果表明,臭氧化臭氧最佳投加量为4 mg/L,显著增强水体的可生化性,使TOC(总有机碳)/UV254(在波长为254 nm处的单位比色皿光程下的紫外吸光度)提高80%.臭氧/生物活性炭对循环养殖废水中的有机物和氨氮具有良好的去除效果.臭氧/生物活性炭对TOC、高锰酸盐指数和UV254的最终去除率比生物活性炭分别高11.9%、13.4%和6.5%.臭氧/生物活性炭和生物活性炭对氨氮的最终去除率分别为96.0%、90.7%.     

印染废水处理过程中污染物及毒性分析

应用水解酸化-A/O(生物活性炭法(PACT))-混凝沉淀组合工艺处理印染废水,深入研究该组合工艺各反应段对印染废水污染物的处理情况,分别用电感耦合等离子光谱(AES/ICP)、气相色谱/质谱联用(GC/MS)以及发光细菌法对各反应段出水所含金属元素、有机物以及毒性进行检测.结果表明,水解酸化-A/O(PACT)-混凝沉淀组合工艺可以有效降解印染废水所含污染物,降低其毒性.     

常州某纺织园印染废水处理工艺改造研究

常州某纺织园印染废水厂,由于原有深度处理工艺中混凝沉淀与活性炭吸附运行费用高、产生的污泥量大等缺点,拟进行工艺改进,本研究采用改性磁粉/ClO2氧化协同深度处理代替原有深度处理工艺,连续运行结果表明,当电磁体装置中调节废水pH为4左右、磁粉投加量为10 g/L、ClO2投量为60 mL/L,先吸附20 min,然后Cl...     

Reduction of greenhouse gases from anaerobic piggery wastewater treatment by bromochloromethane in Taiwan

This work establishes methods of reducing the amount of methane produced from the anaerobic treatment of piggery wastewater by either reducing the storage time before solid/liquid separation or inhibiting the activity of methanogens in anaerobic wastewater treatment system. Experimental results showed these two methods can be adopted effectively to reduce methane production resulting from anaerobic piggery wastewater treatment. First, the wastewater must be processed using solid/liquid separation immediately after washing pig houses. This process can reduce by 62% the biogas production and indirectly decrease the methane production from the anaerobic wastewater treatment reactor. Second, adding 10 mg L(-1) bromochloromethane (BCM) daily into the anaerobic wastewater treatment reactor can significantly reduce the amount of biogas and methane produced during the anaerobic fermentation process. Furthermore, biogas production can be completely inhibited after 4 days. Adding BCM (< or =10 mg L(-1)) to wastewater only slightly affected the efficiency of the anaerobic wastewater treatment process. Results in this study can provide the basis for further research on reduction of the amount of methane produced from anaerobic wastewater treatments.     

O3/ACF体系降解废水中的三烯丙基异氰脲酸酯

三烯丙基异氰脲酸酯（TAIC）生产废水具有有机物浓度高、难降解的特点,常规的处理方法对其处理效果普遍较差。本研究采用O3/ACF协同催化氧化技术,以三烯丙基异氰脲酸酯（TAIC）生产废水为研究对象,分析了O3/ACF催化降解TAIC废水的作用机理,并考察了ACF（活性炭纤维）用量、O3浓度、pH、TAIC初始浓度及ACF使用次数对处理效果的影响。实验结果表明：通过投加叔丁醇和双氧水的对比分析,验证了反应过程中·OH自由基的存在;在ACF投加量为1.2 g·L-1,TAIC初始浓度200 mg·L-1,pH 7.0,臭氧浓度2 g·h-1,反应40 min后,TAIC的去除率为93.54%。     

臭氧/紫外光法处理炼油厂汽提污水的静态实验

用O3／UV法对炼油厂汽提污水中高浓度的COD、Oil、Ar-OH、S^2-进行降解研究,通过控制O3浓度、反应时间,可使各污染物降解达到较高的去除率。近一年的实验表明,与单独用O3法相比,UV使COD、Oil、Ar-OH的降解率,平均分别提高了16％、18％、26％。同时用GX-94测爆仪对反应过程中的尾气进行检测分析,表明O3／UV使废水中各污染物的降解过程是,S^2-类污染物最先被O3／UV氧化降解,其次是含C类有机物的氧化降解,降解的终产物是CO、小分子CH类物质等。本方法也使原废水的可生化性得到显著提高。     

Treatability studies on wastewater from textile dyeing factories in Bursa, Turkey

The textile industry is one of the most rapidly developing industries in Turkey. It generates a large amount of wastewater, with corresponding concerns about pollution. The main sources of pollution in wastewater are the dyeing and finishing processes. The dyestuffs and polyvinyl alcohol (PVA) are the main refractory organics of concern in terms of meeting more stringent effluent standards of chemical oxygen demand (COD) and colour. In this study, wastewaters from textile dyeing factories in Bursa were characterised, and physical, chemical and biological treatability studies were carried out. In the physical and chemical studies, 60.80% COD, 80% suspended solids (SS) and 10.92% turbidity removal efficiencies were obtained. In the biological studies, 90% COD and 40% SS removal were obtained. The initial soluble inert COD of wastewater was determined by using comparison methods. The initial inert COD of wastewater and the microbial product concentration were determined as 37 mg/l and 13 mg/l, respectively.     

Treatment of textile dyeing wastewater by biomass of Lactobacillus: Lactobacillus 12 and Lactobacillus rhamnosus

The main purpose of this study was to investigate the effectiveness of Lactobacillus 12 and Lactobacillus rhamnosus as both cells and biomasses for the removal of dye from real textile dyeing wastewater. The removal experiments were conducted according to the Box–Behnken experimental design, and the regression equations for the removal of dye were determined by the Minitab 14 program. The optimum variables were found to be 10 g/?L biomass concentration for biomasses, 3 for initial pH of the solution, and 20 °C for temperature with an observed dye removal efficiency of about 60 and 80 % with L. 12 and L. rhamnosus biomasses, respectively. Scanning electron microscopy and Fourier transform infrared spectroscopy images also showed that the biomass characteristics studied were favored by the sorption of the dye from the textile industry wastewater. Consequently, these biomasses may be considered as good biosorbents due to their effective yields and the lower cost of the removal of dyes from the effluents of the textile dyeing house.     

纺织行业废水污染控制技术梗概与进展

纺织行业排放的废水成分复杂 ,是最难净化处理的污水之一。本文概述了纺织行业废水污染控制净化技术的现状 ,并作了相应的评价与分析     

臭氧辅助UV/Fenton法处理电镀添加剂生产废水

采用臭氧辅助光芬顿法处理电镀添加剂生产废水,考察双氧水、FeSO₄·7H₂O、pH和反应时间等因素对废水COD和UV₂₅₄去除的影响。实验结果表明,pH=4,臭氧通入量为0.25 g,双氧水的投加量93.3 mL/L,FeSO₄·7H₂O投加量为5.3 g/L,最佳反应时间为30 min,COD和UV₂₅₄去除率分别达到92.64%和87.95%。这表明,臭氧辅助光芬顿法对电镀添加剂生产废水处理效果显著,处理时间大大减少。     

生活污水中糖类测试方法研究

分别用蒽酮比色、苯酚-硫酸及气相色谱法3种测试方法测试了上海市某生活小区生活污水的糖类组成.试验结果表明,蒽酮比色法测试糖类浓度的准确性与精确性优于苯酚-硫酸法,但不能得出污水中糖类的详细组成情况;与蒽酮比色法和苯酚-硫酸法相比,气相色谱法不仅能得出污水中糖类的详细组成,而且还具有较高的精密度.气相色谱法测得的生活污水中各种单糖,如木糖、甘露糖、葡萄糖、半乳糖、鼠李糖、核糖、岩藻糖的质量浓度分别为8.25、 6.02、5.52、4.80、4.44、4.41、2.66 mg/L.     

Adsorptive and photocatalytic activity of Fe3O4-functionalized multilayer graphene oxide in the treatment of industrial textile wastewater

Environmental Science and Pollution Research - Multilayer graphene oxide (mGO) was synthesized and functionalized via co-precipitation method to produce magnetic Fe3O4-functionalized multilayer...